一种新型无刷直流电动机的无传感器矢量控制与相电流注入太阳能发电

Q4 Computer Science
A. Sundaram, G. Ramesh
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引用次数: 2

摘要

太阳能发电在最近的环境方面是一个很有前途的解决方案,因此过去实施了几种发电方法,以达到发电能力和太阳能的关键条件的进步。本文介绍了一种非反相四开关降压-升压变换器(NFSBBC),它是为了在太阳能条件下达到发电的进步而提出的。发电的进步包括使用增量电导跟踪最大功率点,可靠的降压升压操作和电压稳定比。与摄动法和观测器法相比,电导增量法对太阳能发电的跟踪速度更快,因此所提出的发电方式在直流直流无刷电机的大转速运行中,通过DC- link逆变器驱动获得连续的电力。在现有的无传感器矢量控制中,采用了一种新的相电流注入方法,在大范围内估计磁链、转矩和控制速度,而不需要外部注入和传感回路。目前太阳能发电采用110W/50V太阳能发电容量;采用降压升压操作,变换器输出容量可达25-100V。采用电流注入逻辑控制无刷直流电动机25V/ 1500rpm容量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Advance Solar Power Generation and Control of Brushless DC Motor Using Phase Current Infusion of Sensor Less Vector Control
Solar power is a promising solution in recent environmental aspects so several methods of generation were implemented in past to reach advances in generation capacity and critical conditions of solar. This paper deals with Non-inverting Four Switch buck-boost converter (NFSBBC) which is presented to reach advances in generation with respect to solar condition. The advances of generation include maximum power point tracking using incremental conductance, reliable buck boost operation and voltage stability ratio. Incremental conductance can track rapidly on solar power than perturb and observer method, so proposed power generation draws a continuous power across DC-Link inverter drive for wide speed operation of brushless DC motor. A new phase current infusion is implemented to estimate flux, torque and control of speed in wide range without external infusion and sensing loops in present sensor less vector control. 110W/50V capacity of solar is implemented for present solar power generation; output capacity of converter reaches from 25-100V using buck boost operation. 25V/1500 rpm capacity of brushless DC Motor is controlled using proposed sensor less vector using current infusing logic.
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来源期刊
International Journal of Computer Science and Applications
International Journal of Computer Science and Applications Computer Science-Computer Science Applications
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期刊介绍: IJCSA is an international forum for scientists and engineers involved in computer science and its applications to publish high quality and refereed papers. Papers reporting original research and innovative applications from all parts of the world are welcome. Papers for publication in the IJCSA are selected through rigorous peer review to ensure originality, timeliness, relevance, and readability.
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